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Rayleigh and depinning instabilities of forced liquid ridges on heterogeneous substrates

arXiv:1009.0998 · doi:10.1103/PhysRevE.83.016305

Abstract

Depinning of two-dimensional liquid ridges and three-dimensional drops on an inclined substrate is studied within the lubrication approximation. The structures are pinned to wetting heterogeneities arising from variations of the strength of the short-range polar contribution to the disjoining pressure. The case of a periodic array of hydrophobic stripes transverse to the slope is studied in detail using a combination of direct numerical simulation and branch-following techniques. Under appropriate conditions the ridges may either depin and slide downslope as the slope is increased, or first breakup into drops via a transverse instability, prior to depinning. The different transition scenarios are examined together with the stability properties of the different possible states of the system.

Physics synopsis link: http://physics.aps.org/synopsis-for/10.1103/PhysRevE.83.016305